Liquid dispensing apparatus



Jan. 21, 1941. w. M. CARROLL LIQUID DISPENSING APPARATUS 8, 1956 15 Sheets-Sheet 1 Filed Dec.

llo. I Ill Jan 21, 1941- w. M. CARROLL 2,229,370 Y LIQUID DISPENSING APPARATUS Filed nec. s, 1956 15 sheets-sheet 2 Jan. -21, 1941. w. M. CARROLL 2,229,370

LIQUID DISPENSING APPARATUS l Filed Dec. 8, 1936 15 Sheets-Sheet 3 Filed Dec. 8, 1936 15 Sheets-Sheet 4 Jan. 21, 1941. w. M. CARROLL Y 2,229,370

LIQUID msrrmsms APPARATUS A 15 sheets-sheet 5 Filed Dec. e. 1936 JLD.

Jan. 21, 1941.

w. M. CARROLL LIQUID DISPENSING APPARATUS Filed Deo.

8, 1936 15 Sheets-Sheet 6 Jan. 21, 1941. w M, CARROLL 2,229,370

' Y I LIQUID DIsPENsING APPARATUS Filed Dec. 8, 1936 l5 Sheets-Sheet 7 @f @y f m@ Jan. 21, 1941. M CARROLL 2,229,370

' LIQUID nIsPENsING APPARATUS Y Filed Dec. 8, 1936 15 Sheets-sheet 8 'Imm Filed Dec. 8, 1936 15 Sheets-Sheet 9 {Juliana/y. CLrrOZ/ Jan..21, 1941. w. M. CARROLL LIQUID DISPENSING APPARATUS Filed Dec. 8, 1936 15 Sheets-Sheet 10 w@ M m M m Jan. 21, 1941. w, M CARROLL 2,229,370

LIQUID DISPENSING APPARATUS Filed Dec. 8, 1936 15 Sheets-Sheet l1 Mll/0MM 62mm@ @yf m @1 Jan. 21, 1941. w. M. CARROLL LIQUID DISPENSING APPARATUS Filed Dc. 8, 1936 15 Sheets-Sheet l2 Jan. 2l, 1941. w M CARROLL '2,229,370

LIQUID DISPENSING APPARATUS Filed Dec. 48, 1936 15 SheeS-SheekI 13 f/Gf 505 17 73 755 5.15 HHH NI 759 E07 mmf www1/:Id n l 757 A 122, El 623 j ,n .f hi 761 757 f "I U @a 535 707 2 Inulvnfgli o. f4.5

W f' I ,H l ll I N i;/Gf

i 7 UI Ml ltlll 1;' |lH *lli 677 lvl '11N lml im l uw f my f. l/ W@ M@ fr] 705 xu/l' H H H HHM u `MWHHIIHHHM H WH .31 ,Till/e mZI'A Mama/mui. @from @y 4/ www@ Jan. 21, 1941. w. M. CARROLL LIQUID DISPENSING APPARATUS 15 Sheets-Sheet l5 Filed Dec. 8, 1936 m 7m n www m f W ww v l ii WW 4 i?? W w we@ HU Patented Jan. 2l, 1941 UNITED STATES PATENT OFFICE LIQUID DISPENSING APPARATUS Application December 8, 1936, Serial No. 114,807

18 Claims.

The objects of my invention are as follows:

To provide a fluid dispensing mechanism by means of which mechanical measurement of fluid in terms of umts of quantity or of money may be effected.

To provide a fluid dispensing mechanism which may be conditioned during a dispensing operation to terminate such operation when a quantity of uid then being dispensed becomes an exact unit quantity or becomes the exact equivalent of a monetary unit.

To provide a fluid dispensing mechanism whereby an operator may select prior to the dispensing operation, the unit either volumetric r monetary, in which mechanical measurement is to be effected.

To provide a fluid dispensing mechanism whereby after a dispensing operation has been terminated by mechanical means, further dispensing may be effected.

To provide a fluid dispensing mechanism wherein operation of the means for selecting the units in terms of which` mechanical measurement is to be effected, is permitted at any time prior to conditioning of the mechanical measurement device for terminating the dispensing.

To provide a iluid dispensing -mechanism in which mechanical measurement of uid in terms of half gallon or of five cent increments is effected.

To provide in a fluid dispensing apparatus, a device for terminating the dispensing operation which comprises a pair of discs and a stop pawl which is movable into cooperative relation with one or the other of the discs.

To provide, in a fluid dispensing apparatus, a device for terminating the operation thereof which comprises an element driven in accordanc-e with the quantity dispensed and another element driven in accordance-with the value of the iiuid being dispensed and a mechanism which is adapted to cooperate with one or the other of the elements to terminate the dispensing.

To provide, in a fluid dispensing apparatus, a mechanism for resetting the indicating registers to zero by power.

To provide a resetting mechanism wherein once the operation is initiated it automatically goes on to completion.

To provide a power resetting mechanism which is no*J under control of the operator once resetting has been initiated.

To provide power resetting means which are driven from the pump motor.

To provide, in a fluid dispensing apparatus,

interlocking means which require the initiation of operation of the resetting means before uid can be dispensed from the apparatus.

To provide, in a iiuid dispensing apparatus. mechanism operable by the hose hook when the 5 latter is moved to one position, to start the resetting operation and operable by the hose hook when it is in a different position to entirely disable the apparatus. l

To provide, in a fluid dispensing apparatus a motor driven resetting mechanism which automatically shuts off the motor when resetting is completed.

To provide, in a fluid dispensing apparatus, a power driven resetting mechanism which at the completion of its operation leaves the apparatus in condition for an ensuing dispensing operation.

To provide a resetting mechanism which zeroizes the registers and conditions the mechanical measurement mechanism for accurate operation.

To provide means for indicating the price at which the cost computing mechanism is operating.

To provide price indicating means which are adjusted simultaneously with the cost computing mechanism.

To provide interlocking means whereby the price indicating mechanism will be constrained to display the price at which the cost computing mechanism is computing.

To provide means in a dispensing apparatus for controlling both the fluid supplying means and the ow of uid through the apparatus.

To provide means `in a dispensing apparatus for maintaining a portion of the dispensing line fuil of liquid.

To provide a combined check and pressure relief valve for maintaining a portion of the dispensing line full of liquid under a predetermined pressure. Y

To provide mechanism which is operated by super by-pass pressures for conditioning themechanical measurement mechanism for operation.

To provide mechanism in the dispensing line which is adapted to be operated only upon the creation of super by-pass pressures in the line for releasing the flow controlling means.

To provide means for latching the iiow control means in operated position when they are operated to initiate dispensing of uid.

To provide two separate mechanisms for 0perating the flow control means, together with mechanism which requires the operation of one mechanism to precede the operation of the other.

To provide two separate mechanisms for operating the now control means, together with means requiring the operation of one to precede the operation of the other and thereafter permitting successive operations of said other mechanism.

To provide two separate `mechanisms for operating the ow control means, together with means requiring the operation of one mechanism to precede that of the other and thereafter permitting successive operations of said other mechanism until said first named mechanism is returned to its unoperated position. K

Figure 1 is a front elevation of the dispensing device with parts of the housing broken away.

Figure 2 is a side elevation of the dispensing device.

Figure 3 is a perspective view of the control mechanism with the parts in the normal or; unoperated positions.

Figure 4 is a detail section of the driving clutch for the resetting mechanism.

Figure 5 is a perspective view of the control mechanism with the parts in position to initiate resetting.

Figure 6 is a perspective detail view of part of the control mechanism.

Figure 7 is a detail section of part of the control mechanism taken on the line 1-1 of Figure 6.

Figure 8 is a view showing the hose pull mechanism in normal or unoperated position and its relation to the control mechanism.

Figure 9 is an elevation showing the latching mechanism and its releasing device in the normal inactive position.

Figure 10 is a view similar to Figure 9 but with the parts in the position occupied during resetting'.

Figure 11 shows the hose pull mechanism in its operated or flow starting position.

Figure 12 is a section taken on line |2-I2 of Figure 5 showing the latch in active position and the details oi' the Sylphon.

Figure 13 is a detail sectional view of the combined by-pass and relief valve taken on the line .I3-i3 of Figure 14.

Figure 14 is a detail section of the control valve taken on the line Il-H of Figure 13.

Figure 15 is an elevation of the variable speed mechanism.

Figure 16 is a detail view of the mechanism of Fig. 15 with parts broken away taken on the line IS-IS of Figure 15.

Figure 17 is a detail section of a. unit of the variable speed mechanism taken on the line |1-I1 of Figure 16.

Figure 18 is a detail vertical section of the clock mechanism taken on the line I8-l8 of Figure 15.

Figure 19 is a detail section of the variable speed mechanism showing the compound differential gearing and predetermining discs.

Figure 20 is a detail view of the predetermined quantity disc and its clutch taken on the line 20-20 of Figure 19.

Figure 21 is a section taken on line 2l-2| of Figure 19 showing the drive to the iirst sun gear.

Figurei22 is a section taken on the line 22--22 of Figure 19 showing the drive to the spider of the first planetary gears. A

Figure 23 is a section taken on the line 23-23 of Figure 19 showing the drive between the first sun gear and iirst set oi planetary gears.

lFigure 24 is a section taken on the line 24-24 of Figure 19 showing the drive between the first set of planetary gears and the second sun gear. Figure 25 is a section taken on the line 25-2! of Figure 19 showing the drive to the spider of the second set of planetary gears.

Figure 2e 1s s section-tekenen the une :c zl

of Figure4 19 vshowing the drive between the second sun gear and the second set of planetary gears.

Figure 27 is a section on the line 21-21 of Figure 19 showing vthe drive between the second set of planetary gears and the nal drive gear.

Figure 28 is a section taken on the line 28-28 of Figure 19 showing the drive train leading to the total money accumulator.

Figure 29 is a section taken on the line 29-29 of Figure 19 showing the drive tothe total price dials.

Figure 30 is a section taken on the line 30-30 of Figure 31 showing the drive to the total price dials.

Figure 31 is a plan view of the total price dials and the dierential gear set.

Figure 32 is an elevation showing the unit price setting means and the predetermining mechanism.

Figure 33 is an elevation showing the stop seated in the notch of the quantity predetermining disc.

Figure 34 is an elevation showing the stop riding on the periphery of the quantity predetermining disc.

Figure 35 is an elevation showing the stop seated in one of the notches of the money value predetermining disc.

Fig`ure 36 is a section taken on the line 36-38 of Figure 38 showing the gear trains of the resetting mechanism.

Figure 37 is a section taken on the line 31-31 of Figure 38 showing the gear trains of the gallonage register.

Figure 38 is a plan showing the predetermining discs and stop, and the gear trains of the resetting mechanism and gallonage register.

Figure 39 is a section taken on the line 39-39 of Figure 40 showing the unit price setting mechanism.

Figure 40 is a plan partly in section showing the unit price setting mechanism.

Figure 41 is an elevation partly in section show ing the gallonage and cost registers.

Figure 42 is a section taken on the line 42-42 of Figure 41 showing the drive to the register dials of the lowest order.

Figure 43 is a section taken on the line 43-43 of Figure 41 showing part of the transfer mechanlsm and the resetting connections.

Figure 44 is a section taken on the line 44-44 of Figure 41 showing another part of the transfer mechanism.

Figure 45 is a section taken on the line 45-45 of Figure 41 showing the connection between the transfer mechanism and the higher order dial.

GENERAL DESCRIPTION FIGURES 1 AND 2 In Figure 1 is disclosed a liquid dispensing unit adapted for use in dispensing chiefly gasoline at the ordinary service stations. This device comprises a base l and an upstanding housing 3 which surrounds the internal mechanisms of the device, which are mounted upon a frame of any suitable type. A suction pipe 5 is connected to an underground tank or reservoir (not shown) in which the gasoline is stored. At its other end .uquidiscnarged by said pump. Any air which has been delivered by the pump is separated fromV the gasoline in this air release device andonly gasoline is discharged into the meter inlet conduit I3. A suitable switch' |1 is provided for con.- trolling the motor.

The conduit |3 discharges` into a valve body I3 which contains relief, checkjgand control valves later to be described. A meteri of any suitable type, but preferably of the positive displacement type described in Patent 13011371424 by I-I. L; Blum, is connected to receive liquid from the valve body ls. mula meaureu by the meterle discharged into a conduit 23 vby which it is conducted to the sight glasses 2l end thence to an outlet connection 21 to which is affixed the dis-` charge conduit 23 which is a iiexible hose.

The hose terminates in .a nozzle 3| of any desired construction, but which comprises a valve 33 adapted to be operated by a trigger 35. The

triggerlis provided with a guard 31 and the nozzle terminates in a spout 33 which is preferably of the flexible tube type. A hose hook 4| is pivoted on the frame for motion through an angle of approximately ninety degrees from a horizontal to a vertical position. In the horizontal position it is adapted to receive and retain the nozzle when the latter is not being used. When the nomle is in position on the hose hook the exible tip is received in a recess 45 of-the housing 3.v

A padlock 41 may bepassed through its trigger guard 31 and the hose hook 4| immediately behind the trigger 35 so that the nozzle can not be removed from the hose hook. the hose hook can not be operated, and operation of the trigger is prevented.

Housing 3 is provided with a dial 43, which is perforated to display number wheels of the dial type as shown at 5|. Details of the register will be discussed below. A flexible shaft 53 is connected at 55 to be driven from motor 3 and the upper end of the shaft is connected as lat 51 to the reset gear case 53. A switch operating rod 3| is connected at its upper end to a lever 33 later to be described, anda spring 35 is connected to said rod and anchored in .such a manner as to tend to draw the rod downwardly to move the switch to its oil.' or on position.

Powmz Rnslc'rrma MncHANrsM Figures 1 to 7 me., 1s', s6 and 41 Power is transmitted from the` flexible shaft 53 through the gears in case 53 to the driving member 31 of the clutch shown in detail in lFigure 4. 'I'he driving member comprises an annular flange 33 which is fixed to a hub 1| extending from the gear case just described. A shaft 13 is located ,axially of said hub and flange and has keyed to it the driven member 15 which is provided with a V-shaped notch 11, as shown in Figure 4. Adisk13isfixedtoahub 3| which is mounted for rotation relative to shaft 13. 'I'he Vdisk is provided with a pin 33 (Fig. 4) which ex- -tends into and parallel with said ange 33. A

roller 35 is mounted to rotate on pin 33 and is adapted tobe received in the notch above d`e 'scribed'. A spring 31 is lseated in a hole 33 which is formed in one edge of the V-notch 11. Spring 31 is adapted to bear against roller 33 and tends to force it into contact with the other edge of notch 11. Disk 13 is provided with a notch 3| which is adapted to receive a pawl 33 which is pivoted at 35 to a'portion of the clock frame 31. A spring 33 is applied to pawl 33 to bias it toward notch-engaging position. A link |3| depends from an arm |03 for a purpose to be described.

A bracket |35 is supportedon a base member |31 and is provided with'bearings |33 on which is journailed a shaft Hose hook 4| is ilxed to rotate said shaft through an angle of approximately' ninety degrees as the hook is raised or lowered. AA lug ||3` is formed on the hose hook as shown in Figure 3, and is perforated to receive the bent-over end ||5 of a rod ||1, which passes through an opening in the bracket ||3. A spring |2| is supported on rod I1 and bears at one end against bracket |3 and at its other end against a pin |23 which passes through shaft ||1. Loosely mounted on shaft is a bell crank having an arm |25 which is perforated to receive the bentover end of a rod |21 which extends in the general direction of the rod ||1 for a purpose to be described. The other arm |23 of said bell crank extends substantially at right angles to the arm |25. A pin |3| is fixed at one end in a lug which forms'a part of a hose hook 4|, while the other or free end of said pin extends to a position where it may be contacted by one or the Vother of said arms |25 or |23.

At the end of shaft opposite to that to which the hose hook is fixed is attached a hub |33. is perforated to receive the bentover end of rod |31. A second arm |33 having an extension |4| attached thereto is also formed integrally with said hub |3I.

Bracket ||3 is provided with bearings in which is mounted afre'ely rotatable shaft |43. A switch -lever 33 mentioned above is fixed to one endof said shaft |43 '(see Fig. 6). An operating lever |45 is mounted for free rotation about shaft |43. A hub |41 is pinned to shaft |43 and carries a disk |43 which is notched as at |5|; a clutch element |53 is also pinned to rotate with said shaft. Control lever |45 is provided with a depending arm |55, at the outer end of which is mounted by means of a pivot pinv |55, the pawl |51. Surrounding the pin is a spring |58 which serves to bias the pawl in a counterclockwise direction as shown in Figure rI.

'I'he pawl just described lies in the sameplane as disk |43 and is adapted to engage the notch |5| thereof. The tail of the pawl is provided with a bent-over ear |53 to slidably receive the end of rod |21. A pin |6| is passed through the rod between th end thereof and the ear |53. A projection |63 is formed integrally with the control lever |45 and is adapted to engage the bent-over ear |55,on a lever |61. Fixed to said lever |31 and concentric with shaft |43 is a clutch element |33 which engages the clutch element |53 described above. A pin or projection |1| is mounted integrally with lever |45 and is adapted to engage a slotted arm |13 which forms a portion of the mechanical measurement mechanism to be described.

Attached to one edge of the control lever is a. plate |15 which is provided with a square notch |11. The lever |51 is provided with a bent-over ear |13 (Fig. 18). Pivoted at |3| to this end of An arm is integral with said hub and e said lever is a pawl |83.

pawl in a counterclockwisedirection. The pawl of said lever is notched as at |99 (Fig. 5) and theV notch is .adapted to snap into position above the lever |61 under action of a spring 20| as the lever 61 is depresse-d. A link |0| mentioned above, is

bent laterally at its lower end and is received in an opening 203 in lever |61 (see Fig. 5).

Referring to Figure 36, reset shaft 13 drives gear 205. The motion of this gear is transmitted through gears 201, 209, shaft 2|| and gears 27|3, 2|5 to pin2|1, shown in Figure 5, which is adapted during its rotation to engage the arm 2|9 of the lever pivoted at |95, to release lever |61 from shoulder |99. Shaft `2|| mentioned above serves as the reset shaft for the total regis-V ters on one side of the machine while the. shaft 22| (Fig. 36) serves as the reset shaft for the total registers on the other side of said machine. Shaft 22| is driven vfrom gear 205 by means of gears 223 and 225.

' OPERATION or Pownn RESET MECHANISM n order to reset the dispensing apparatus for a dispensing operation the attendant will swing the hose hook 4| from the position shown in Figure 3 to that shown in Figure 5. Rod I I1 will be displaced because of the eccentricity of lug ||3 to compress the spring |2| between bracket ||9 and the pin |23. With the hose hook in its vertical position the lug ||3 will carry the bentover end ||5 of rod ||1 slightly below the center line of shaft thus enabling spring |2| to maintain the hose hook in upper or actuating position. As the hose hook is moved to the vertical position, pin |3| carried by a second eccentric boss on the hose hook picks up lever |29 and rotates it and lever |25 about shaft to force rod |21 forwardly. 'Ihis motion moves pin |6| (Fig. 6) away from the ear |59 and permits pawl |51 to rotate under action of vspring |58 into engagement with the notch |5| of disk |49 as shown in Figure 7.

The rotation of shaft just described also causes the rotation of lever |35, which in turn exerts a pull on rod |31 to free a latch which will be described later. 'I'he other arm |39 on hub |33 together with its extension |4| and the pin |9| will be depressed by the aforesaid rotation of shaft Pin |9| forces pawl |83 of Figure 18 downwardly and since said pawl is not free to rotate in this direction the arm |61 will also be depressed. As a result of this motion of arm |81 and because of the clutch |69|53 shown in Figure 6, shaft |43 will receive a clockwise rotation which is transmitted to the arm 63, which in turn moves the switch rod 6| to close the motor switch, thus setting the motor 9 into operation.

Through the flexible coupling 53, motion of the motor is transmitted to the gears in the gear case 59 and the driving member 1|. It will be noted that as lever |61 is depressed the link l|0| is drawn downwardly and the pawl 93 is Withdrawn from the notch 9| of the control member 19; consequently, prior to the operation of the motor switch the spring 81 will have jammed a lever m on said paviaA is connected to a spring V|81 which biases said roller 85 into contact with one edge of the V- notch 11 in control member 15 and flange 89.

When the latter member is driven. Yfrom the motor as just described, motion will be transmitted in the counter clockwise direction (Fig. 4) to the element 15 and to shaft 13. 'I'he motion of shaft 131s transmitted through the gearing disclosed in Figure 36 to the reset shafts 2|| and 22| and also to the gear 2| 5 which carries pin 2|1. As resettingprogresses, pin 2|1 will rotate in a Vclockwise direction (Fig. 5) until it contacts the lever 2|9 and rotates it together with lever |91 in a counterclockwise direction about pivot |95. It will be noted that lever |61/in passing from the Figure 3 to the Figure 5 position will have been depressed suiiiciently to permit'notch |99 of lever |91 to swing into position over it under the action of spring Thus when the pin |9| passes over the end of pawl |83 in` moving toward its lowermost position and frees said pawl, the latch formedby lever |91 and shoulder |99 will maintain lever |61 depressed to hold the switch in its closed position. Contact between pin 2|1 and-lever 2|9 as described above will free lever '|61 from the restraintof shoulder |99 and permit the shaft |43 to rotate in a counterclockwise direction (Fig. 6) under the action of the switch spring 65, rod 6| and switch lever 53 until pawl 93 engages the edge of vdisk 19. The parts will be held in this position until the pawl 93 drops into the notch at which time the shaft |43 will be free to rotate to its fully returned position to shut oil' the motor.

The relation of the notch in disk 19 to the counters is such that the latter will rest withtheir zero numerals visible through clockface 49 when pawl 93 is seated in its notch. Thus at the completion of the resetting operation the motor has been shut off and all of the parts come to rest awaiting the operation of the flow initiating mechanism. v

Referring to Figures 13 and 14, valve body I9 is shown. in detail. The conduit I5 discharges into a chamber 221 which is provided with a threaded port 229in which is located a bushing 23| having a valve seat 233. A hollow valve stem 235 having guide portions 231, which contact the bore 239 of said bushing, supports a valve 24| in position to contact seat 233 to close the bore 239. A spring 243 is compressed between a plug 245 in said valve body and a shoulder 241 maintained on the valve stem. Said valve stem is provided with a bore 249 which is counter bored as at 25| at its upper end. Said stem is also counter bored at its lower end to receive the valve 253 which is mounted on a rod 255 loosely passing through bore 249 and biased in a valve closing direction by a spring 251, which is confined between the shoulder formed by the counter bore 25| and the disk pinned to the valve rod 255. It will be noted that the valve 24| is adapted to be opened as liquid flows from chamber 221 into a chamber 259 under influence of pump 1 and that it will serve as a check valve to prevent iiow of liquid in the opposite direction. 'I'he valve 253 will open to permit flow of fluid from chamber 259 back into the chamber 221 and thus serves as a pressure relief valve.

Chamber 259 is connectedto the inlet chamber of the meter 2|. A chamber 26| also in the valve body i9 is connected to the outlet chamber port 222 and adapted to connect said port and chamber 22| with the outlet conduit 22. A boss 212 is provided in the wall 215 of chamber 21| at a point directly above port 222. A threaded opening in said boss receives a packing gland 211 topermitthe passage of a pushrod 219 into the chamber 21|. The lower end of said rod is formed' with a collar which is adapted to engage the stem of valve 225 so that if the rod 219 were' depressed the valve 225 would be forced open against the action of its spring 229. An adjustable tappet 222 is mounted on the outer end of rod 212 and is adapted to be engaged and depressed by a projection 225 on the control lever |45. 'Ihe spring 269 is compressed between valve 225 and a plug 221 which is threadedly engaged in the valve body 9.

In Figures 9 and 10 is shown a cap member 222 which has an upstanding boss 29| into which is threaded the shank of a yoke 292. 'I'he yoke is held in its adjusted position by means of a jam nut295, which is tightened down on a spring 291 to draw it against the boss. The yoke pin 299 serves as a pivot for the bell crank lever which comprises a latch arm 202 and an actuating arm 205. A spring 201 engages the yoke and the bell crank to bias it in a clockwise direction (Figs. 9 and 10). The latch is provided with a perforated bent-over ear 209. which supports the rod |21Y shown in Figs. 3 and 5. The latch arm 202 is provided with a latching shoulder 2| I, which is adapted to cooperate with one of the edges of the squarenotch 11 in the latch plate |15 of Fig. 6.

Figures 8 and 1l disclose the hose pull mechanism which comprises in an elongated, depending, transversely concave sleeve 2|2, which is fixed to one end of a horizontal, pivotally mounted shaft 2|5, which extends through housing 2. A depending lever 2|1 is fixed to the shaft 2|5 and carries at its lower end a pin 2|9 which extends toward the sleeve 2|2. The hose 29 is received in sleeve 2|2 and is attached to said sleeve by a band 22| at the lower end thereof.

Mounted for free rotation upon the shaft 2|5 between lever 2|1 and sleeve 2|2 are two levers 222 and 225. These levers are similarly formed but reversely disposed upon shaft 2|5. The lever 222 is provided with an upwardly extending arm 221 which forms a shoulder 229 adapted to engage a stop pin 22| which is xed to the frame of the machine to limit the counterclockwise rotation of said lever. This lever is also 4provided with a depending shoulder 222 which is adapted to engage the pin 2|9 described above. A slotted link 225 is attached by means of a rivet 221 to an arm 222 of the lever 222. Lever 225 is provided with an upstanding ann 229 (Fig. 8) adapted to engage the pin 22|, a depending shoulder 24| adapted to engage pin 2|9 and an arm 242 which supportsa rivet 245 upon which is mounted the slotted link 241. Links 225 and 241 are connected at their lower ends, by means of a rivet .249, to one end of a lever 25|, which is rotatably supported on a portion of the frame 252 by means of a pin 2 55. The other end of lever 25| is adapted to over-lie the control lever |45 as is clearly shown in Figure 6.

Orm'rron or Fmw Immune am: Mamnmmo Mnonamsu If we assume that the resetting operation has beenv completed as described above, in order to condition the apparatus to discharge fluid, it is necessary for the operatorto exert a tension on the dispensing hose 29 so as to swing the sleeve 2|2 laterally in one direction or the other to rotate shaft 2|9. Figure 1l discloses the sleeve swung in a clockwise direction to give shaft 2|5 a rotation in the same direction. Depending lever 2|1 and pin 2|9 will be rotated in a clockwise direction as a result of the rotation of shaft 2|5 and will engage the shoulder 222 of lever 222 to impart a clockwise rotation to the latter. As a result of this motion pin 221 will be lifted and will raise the link 225 which depends therefrom. Link 241 being constrained to move with link 225 will also be lifted and will move relative to the arm 242 due to its slotted connection therewith.

'I'he lever 25| which is connected with links 225 and 241 by pin 249, will be forced to rotate in a counterclockwise direction and due to its overlying relation with lever |45, it will depress the latter causing it to rotate in a clockwise d1- rection. Referring to Fig. 6 it willv be remembered that the pawl |51 was seated in notch |5| of disk |49 during the resetting operation; therefore, as lever |45 is rotated by lever 25| as just described, the rotation of depending arm |55 will be transmitted through the medium of pawl |51 and notched disk |49 to the Vshaft |42 and switch arm 62, which will be rotated in a clockwise direction to lift switch rod 6| against the action of its spring 65 to close the motor switch. As shown in Figures 3, 5 and 14, the tappet 282 of the control valve 225 lies immediately beneath projection 295 of the-control lever |45; consequently,'the rotation of the latter lever just described will cause the tappet 282 to be depressed and the control valve to be opened. This depression of lever |45 is also sufficient to carry the latch plate downwardly over the latch arm 202 a sufllcient distance for shoulder 2|| to engage one edge of notch |11 as shown in Figure 12. During theresetting operation, the rod |21 shown especially in Figure 12 was moved so that the pin |22 was withdrawn from contact with ear 209, thereby permitting pawl 202 to be moved into engaging position with the latch plate |15 under the action of its spring 201.

Thus it will be seen, the switch and control valve will be held in their operated positions even though tension on the hose 29 is released to permit shoulder 229 of lever 222 to again abut pin 22| under the action of a suitable retaining spring, not shown. The lever |61 which is adapted to transmit rotation to shaft |42 during the resetting operation is held in its uppermost position due to the action of spring 99, pawl 92 and link |0| during the operation of shaft |42 by the hose pull mechanism. The clutch |52-|69 is so formed that the element |52 may rotate clockwise under the action of shaft |42 without carrying with it lever |61. A pullvon the hose in the opposite direction from that shown in Figure 11 will actuate lever 225 and link 241 in a manner similar to that just described to produce the same operation of lever 25| and its associated parts as fully described above.

OPERATION or Hosn PULL Paros To Rnsm'nNo If it is attempted to accomplish a delivery of gasoline before resetting has been initiated by raising the hose hook 4|, the attempt will be un- 

